U.S. patent application number 12/469746 was filed with the patent office on 2010-01-21 for shift control device for bicycle.
Invention is credited to Douglas Chiang.
Application Number | 20100011902 12/469746 |
Document ID | / |
Family ID | 41427492 |
Filed Date | 2010-01-21 |
United States Patent
Application |
20100011902 |
Kind Code |
A1 |
Chiang; Douglas |
January 21, 2010 |
Shift Control Device for Bicycle
Abstract
A shift control device includes a shift-up control apparatus, a
shift-down control apparatus and a transmission control assembly.
The shift-up control apparatus includes an operable shift-up
controller, a first link member connected with the shift-up
controller and a first pawl pivotally mounted on the first link
member. The shift-down control apparatus includes an operable
shift-down controller and a second link member connected with the
shift-down controller. The second link member includes first and
second actuating members. The transmission control assembly
includes a locking member, a housing assembly and first second
pawls. The locking member is moveable in the housing at various
positions for various bicycle speed transmissions and includes
first and second engaging sections. The first engaging section is
selectively engaged by the first pawl and the second engaging
section selectively engaged by the second and third pawls.
Inventors: |
Chiang; Douglas; (Wufong
Township, TW) |
Correspondence
Address: |
KAMRATH & ASSOCIATES P.A.
4825 OLSON MEMORIAL HIGHWAY, SUITE 245
GOLDEN VALLEY
MN
55422
US
|
Family ID: |
41427492 |
Appl. No.: |
12/469746 |
Filed: |
May 21, 2009 |
Current U.S.
Class: |
74/502.2 |
Current CPC
Class: |
B62K 23/06 20130101;
B62M 25/04 20130101; Y10T 74/20438 20150115 |
Class at
Publication: |
74/502.2 |
International
Class: |
F16C 1/10 20060101
F16C001/10 |
Foreign Application Data
Date |
Code |
Application Number |
Jul 16, 2008 |
TW |
97126986 |
Claims
1. A shift control device for bicycle comprising: a shift-up
control apparatus including an operable shift-up controller, a
first link member connected with the shift-up controller and a
first pawl pivotally mounted on the first link member; a shift-down
control apparatus including an operable shift-down controller and a
second link member connected with the shift-down controller, and
the second link member including first and second actuating
members; a transmission control assembly including a locking
member, a housing assembly and first and second pawls, the locking
member moveable in the housing at various positions for various
bicycle speed transmissions and including first and second engaging
sections, the first engaging section selectively engaged by the
first pawl and the second engaging section selectively engaged by
the second and third pawls, with the operation of the shift-up
controller enabling movement of the first link member and the first
pawl to engage with the first engaging section and further movement
of the first link member cause travel of the locking member in a
first direction and movement of the locking member cause the third
pawl disengage from the second engaging section and engage with
second engaging section reciprocally, and with the operation of the
shift-down controller enabling the first actuating member to cause
the second pawl to engage with the second engaging section and the
second actuating member to cause the third pawl to disengage from
the second engaging section and further movement of the shift-down
controller cause travel of the locking member in a second direction
reverse to the first direction.
2. The shift control device as claimed in claim 1 wherein the
shift-up controller includes a first end and a second end, and with
the second end includes two connecting lobes, and with the two
connecting lobes receiving the first link member therebetween.
3. The shift control device as claimed in claim 1 further
comprising an elastic element including at least one loop and
defining two terminating ends and a first leg extending from one
terminating end and a second leg extending from the other
terminating end, with the first and second legs extend in different
directions, and with the first leg abutting against a periphery of
the shift-up controller.
4. The shift control device as claimed in claim 1, wherein the
first link member includes a first joining end connected with the
shift-up controller and a second joining end including a first
section and a second section, and with the first section including
an extension for pivoting connecting with the first pawl.
5. The shift control device as claimed in claim 2, wherein the
first pawl includes an outer periphery forming a locking section, a
retaining section and an abutted section, and a first elastic
member including at least one loop and defining two terminating
ends and a first leg extending from one terminating end and a
second leg extending from the other terminating end, with the first
and second legs extending in different directions, and with the
first leg retained on the retaining section of the first pawl and
the second leg retained on an edge of the extension.
6. The shift control device as claimed in claim 1 wherein the first
and second actuating members both extend in the same direction but
are at different levels.
7. The shift control device as claimed in claim 1 wherein the first
and second engaging sections extend in accordance with a
longitudinal length of the locking member, with the first engaging
section includes a plurality of first engaging slots, with each
first engaging slot spaced one after the other in a direction in
accordance with the longitudinal length of the locking member, with
each first engaging slot extending transversely to the longitudinal
length of the locking member, with the second engaging section
including a plurality of second engaging slots, with each second
engaging slot spaced one after the other in a direction in
accordance with the longitudinal length of the locking member, with
each second engaging slot extends transversely to the longitudinal
length of the locking member.
8. The shift control device as claimed in claim 7 wherein each
first engaging slot and each second engaging slot are not aligned
with each other.
9. The shift control device as claimed in claim 1 wherein the
housing assembly includes a first housing member and a second
housing member securely connected with each other, with the first
housing member including a first cavity and a second cavity, with
the second cavity including a first engaging channel, a second
engaging channel and a third engaging channel cooperate to form the
second cavity, with the second housing member including an end
received in the first cavity, with the end including a third cavity
corresponding to the cross-sectional shape of the second cavity and
connected to the second cavity, with the third cavity including an
abutting wall defined at the bottom of the third cavity.
10. The shift control device as claimed in claim 5 wherein the
housing assembly includes a first housing member and a second
housing member securely connected with each other, with the first
housing member including a first cavity and a second cavity, with
the second cavity including a first engaging channel, a second
engaging channel and a third engaging channel cooperate to form the
second cavity, with the second housing member including an end
received in the first cavity, with the end including a third cavity
corresponding to the cross-sectional shape of the second cavity and
connected to the second cavity, with the third cavity including an
abutting wall defined at the bottom of the third cavity.
11. The shift control device as claimed in claim 1 wherein the
second and third pawls have a second elastic member disposed
therebetween, with the second elastic member including at least one
loop and defining two terminating ends and a first leg extending
from one terminating end and a second leg extending from the other
terminating end, with the first and second legs extend in different
directions, with the second pawl including an outer periphery
forming a first locking section, a first abutted section and a
first retaining section, with the first leg of the second elastic
member retained on the first retaining section, with the third pawl
including an outer periphery forming a second locking section, a
second abutted section and a second retaining section, and with the
second leg of the second elastic member retained on the second
retaining section.
12. The shift control device as claimed in claim 1 further
comprising an outer case connected with the shift-up controller,
with the outer case being hollow and including a stopping portion
and a recess protruded in an inner peripheral wall of the outer
case, and a clip received in the recess, and with the stopping
portion and the clip cooperating to retain the second link member
and the housing assembly.
13. The shift control device as claimed in claim 12 further
comprising a resilient member disposed between the second link
member and the housing assembly.
14. The shift control device as claimed in claim 10 wherein the
shift-up controller is releasable and returned to a position until
the first pawl is disengaged from the first engaging section and
the abutted section of the first pawl is in abutment against the
abutting wall.
15. The shift control device as claimed in claim 11 wherein the
second actuating member is engaged with the retaining section of
the third pawl when the second pawl is engaged with the second
engaging section.
16. The shift control device as claimed in claim 15 wherein the
shift-down controller is releasable and returned to a position
until the second pawl is disengaged from the locking member and the
second actuating member is disengaged from the retaining section of
the third pawl to enable the third pawl to engage with the second
engaging section.
Description
BACKGROUND OF THE INVENTION
[0001] 1. Field of the Invention
[0002] The present invention relates to a shift control device for
changing speed transmission for a bicycle and, in particular, to an
easily operable shift control device.
[0003] 2. Description of the Related Art
[0004] It is common that bicycle shift control devices are
installed on handlebars of bicycles. The shift control device has a
lever for user to change speed transmission of the bicycle, and
user generally uses his/her thumb to operate the lever. However,
the control device is not an ergonomic design because user has to
apply a relatively substantial force to execute speed transmission.
Furthermore, if the shift control device is not operated with
sufficient force, it is often happened that the change in speed
transmission is not successful.
[0005] The present invention is, therefore, intended to obviate or
at least alleviate the problems encountered in the prior art.
SUMMARY OF THE INVENTION
[0006] According to the present invention, a shift control device
includes a shift-up control apparatus, a shift-down control
apparatus and a transmission control assembly.
[0007] The shift-up control apparatus includes an operable shift-up
controller, a first link member connected with the shift-up
controller and a first pawl pivotally mounted on the first link
member.
[0008] The shift-down control apparatus includes an operable
shift-down controller and a second link member connected with the
shift-down controller. The second link member includes first and
second actuating members.
[0009] The transmission control assembly includes a locking member,
a housing assembly and first and second pawls. The locking member
is moveable in the housing at various positions for various bicycle
speed transmissions and includes first and second engaging
sections. The first engaging section is selectively engaged by the
first pawl and the second engaging section selectively engaged by
the second and third pawls.
[0010] The operation of the shift-up controller enables movement of
the first link member and the first pawl to engage with the first
engaging section and further movement of the first link member
cause travel of the locking member in a first direction and
movement of the locking member cause the third pawl disengage from
the second engaging section and engage with second engaging section
reciprocally.
[0011] The operation of the shift-down controller enables the first
actuating member to cause the second pawl to engage with the second
engaging section and the second actuating member to cause the third
pawl to disengage from the second engaging section and further
movement of the shift-down controller cause travel of the locking
member in a second direction reverse to the first direction.
[0012] It is therefore an object of the present invention to
provide a bicycle shift device that is easily operable.
[0013] It is a further object of the present invention to provide a
bicycle device that shift up/shift down bicycle speed transmission
precisely.
BRIEF DESCRIPTION OF THE DRAWINGS
[0014] FIG. 1 is a perspective view of a shift control device in
accordance with the present invention.
[0015] FIG. 2 is another perspective view of the shift control
device, with an outer case removed in order to show components
inside the shell.
[0016] FIG. 3 is an exploded, perspective view of the shift control
device shown in FIG. 1.
[0017] FIG. 4 is a partial, enlarged view of the shift control
device shown in FIG. 3.
[0018] FIG. 5 is an exploded, perspective view of the shift control
device of FIG. 1 from a different angle.
[0019] FIG. 6 is a cross-sectional view taken along line 6-6 of
FIG. 1 and shows a relationship between a first pawl and a locking
member.
[0020] FIG. 7 is a cross-sectional view taken along line 7-7 of
FIG. 1 and shows a relationship between a second pawl and the
locking member.
[0021] FIG. 8 is a cross-sectional view taken along line 8-8 of
FIG. 1 and shows a relationship between a third pawl and the
locking member.
[0022] FIG. 9 is a cross-sectional view showing the shift control
device is shifted up and the first pawl is in engagement with a
first engaging section of the locking member.
[0023] FIG. 10 is a partial, enlarged view of the shift control
device shown in FIG. 9.
[0024] FIG. 11 is an extended cross-sectional view of FIG. 9 and
shows the first pawl is axially moved and the locking member is
link-moved by the first pawl.
[0025] FIG. 12 is an extended cross-sectional view of FIG. 11 and
shows a shift-up controller is released and the first pawl is
disengaged from the first engaging section of the locking
member.
[0026] FIG. 13 is an extended cross-sectional view of FIG. 12 and
shows that the shift control device is in a condition that a
shift-up is completed.
[0027] FIG. 14 is a cross-sectional view showing the shift control
device is shifted down and the second pawl is in engagement with a
second engaging section of the locking member.
[0028] FIG. 15 is a partial, enlarged view of the shift control
device shown in FIG. 14.
[0029] FIG. 16 is an extended cross-sectional view of FIG. 14 and
shows a relationship of the third pawl and the locking member after
the second pawl is in engagement with the locking member.
[0030] FIG. 17 is a partial, enlarged view of the shift control
device shown in FIG. 16.
[0031] FIG. 18 is a cross-sectional view showing that a shift-down
controller is released and the second pawl is disengaged from the
second engaging section of the locking member.
[0032] FIG. 19 is an extended cross-sectional view of FIG. 18 and
shows a relationship of the third pawl and the locking member after
the second pawl is disengaged from the locking member.
DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT
[0033] FIGS. 1 and 2 show a perspective view of a shift control
device in accordance with the present invention. The shift control
device can change bicycle speed transmission and includes a
shift-up control apparatus 1, a shift-down control apparatus 2 and
a transmission control assembly 3.
[0034] Referring to FIGS. 3 through 6, the shift-up control
apparatus 1 includes a shift-up controller 10, a first link member
20 and a first pawl 30. The shift-up controller 10 includes a first
end 101 and a second end 102. User puts his/her hand on the first
end 101 to control the shift-up controller 10. The second end 102
includes two connecting lobes 11 each has a first hole 12 and a
second hole 13. Additionally, the two connecting lobes 11 receive
the first link member 20 and an elastic member 14 therebetween.
[0035] The elastic member 14 is inserted by an axle 15 to connect
with the shift-up controller 10, and the axle 15 has two ends
received by the two second holes 13, respectively. In the preferred
embodiment, the elastic element 14 includes at least one loop and
defines two terminating ends and a first leg 141 extending from one
terminating end and a second leg 142 extending from the other
terminating end. The first 141 and second 142 legs extend in
different directions. Additionally, the first leg 141 abuts against
a periphery of the shift-up controller 10 that joins the two
connecting lobes 11.
[0036] The first link member 20 includes a first joining end 201
and a second joining end 202. The first joining end 201 includes an
aperture 21 positioned corresponding to the position of the two
first holes 12. The first joining end 201 of the first link member
20 is securely connected with the shift-up controller 10 by
inserting an axle 16 through the first holes 12 and the apertures
21.
[0037] The second joining end 202 includes a first section 203 and
a second section 204. The first section 203 includes an extension.
In the preferred embodiment, the number of extension is two. The
second section 204 is a space recessed in the first link member
20.
[0038] The first pawl 30 is pivotally mounted on the extensions of
the first section 203 and includes an outer periphery forming a
locking section 301, a retaining section 302 and an abutted section
303. Further, a first elastic member 31 includes at least one loop
and defines two terminating ends and a first leg 311 extending from
one terminating end and a second leg 312 extending from the other
terminating end. The first 311 and second 312 legs extend in
different directions. Additionally, the first leg 311 is retained
on the retaining section 302 of the first pawl 30 (as best shown in
FIG. 10) and the second leg 312 is retained on an edge 22 of the
extension. Furthermore, the first pawl 30 and the first elastic
member 31 are received between the extensions and supported by a
shaft (not numbered).
[0039] The shift-down control apparatus 2 includes a shift-down
controller 40 and a second link member 50. The shift-down
controller 40 includes an engaging hole 41 at a first end 401 and a
slit 42 at a second end 402. The shift-down controller 40 further
includes a closed side and an open side, and a compartment 43 is
defined on the open side and is in communication with the slit 42.
Additionally, the compartment 43 includes a stopping wall 44. Also,
the second end 102 of the shift-up controller 10 is insertable
through the slit 42 and received in the compartment 43.
[0040] The second link member 50 includes a connection section 51
at a first end 501 and first 503 and second sections 504 at a
second end 502. The first end 501 is disposed in the compartment 43
and is connected with the shift-down controller 40 by inserting a
fastening device (not numbered) into the engaging hole 41 and the
connection section 51. Furthermore, the first section 503 is a
space recessed in the second link member 50, whereas the second
section 504 includes first 52 and second 53 actuating members. In
the preferred embodiment, the first 52 and second 53 actuating
members both extend in the same direction but are at different
levels. Further, a retainer 54 is formed between the first 501 and
second 502 ends of the second link member 50, and the first link
member 20 is inserted through the retainer 54 and is received by
the retainer 54.
[0041] The transmission control assembly 3 includes a locking
member 60, a housing assembly 70, a second pawl 81, a third pawl 83
and an outer case 90. A cable 64 which is utilized to control the
transmission assembly (not shown) of the bicycle has one end fixed
at the locking member 60.
[0042] The locking member 60 includes two protrusions 61 at two
lateral sides respectively. The locking member 60 further includes
a side having a first engaging section 62 and a second engaging
section 63 formed thereon. The first 62 and second 63 engaging
sections extend in accordance with a longitudinal length of the
locking member 60. Additionally, the first engaging section 62
includes a plurality of engaging slots 621, and each engaging slot
621 is preferably equally spaced one after the other in a direction
in accordance with the longitudinal length of the locking member
60, and each engaging slot 621 extends transversely to the
longitudinal length of the locking member 60. Also, the second
engaging section 63 includes a plurality of engaging slots 631, and
each engaging slot 631 is preferably equally spaced one after the
other in a direction in accordance with the longitudinal length of
the locking member 60, and each engaging slot 631 extends
transversely to the longitudinal length of the locking member 60.
Moreover, each engaging slot 621 and each engaging slot 631 may not
align with each other.
[0043] The housing assembly 70 includes a first housing member 71
and a second housing member 72. The first housing member 71
includes a stopping edge 711 at one end, a first cutout 712 and a
second cutout 713 at the other end. The first 712 and second 713
cutouts extend on an outer peripheral wall of the first housing
member 71 and may extend in accordance with a longitudinal length
of the first housing member 71. In this preferred embodiment, the
number of the first 712 cutout is two, and the two first cutouts
712 are opposed to each other. The first housing member 71 further
includes a first cavity 714 and a second cavity 715. The first 714
and second 715 cavities are preferably coaxial. Additionally, the
second cavity 715 includes a first engaging channel 7151, a second
engaging channel 7152 and a third engaging channel 7153 cooperate
to form the second cavity 715.
[0044] The second housing member 72 includes an end received in the
first cavity 714. The second housing member 72 further includes a
first ridge 721 received in the first cutout 712 and a second ridge
722 received in the second cutouts 713, respectively, in order to
securely engage the second housing member 72 with the first
engaging member 71. The second housing member 72 also includes a
cavity 725 corresponding to the cross-sectional shape of the second
cavity 715 and connected to and in communication with the second
cavity 715. Likewise, the cavity 725 includes a first engaging
groove 7251, a second engaging groove 7252 and a third engaging
groove 7253 cooperate to form the second cavity 715. FIG. 6 shows
the cavity 725 also includes an abutting wall 726 defined at the
bottom of the cavity 725.
[0045] The second 81 and third 82 pawls are pivotally received in
the cavity 725 and are pivotally installed on a shank 83. The shank
83 has one end received in the second cutout 713 and a first
orifice 723, and another end received in a second orifice 724. The
first orifice 723 is defined in a peripheral wall section of the
second housing member 72 that delimits the cavity 725 and is
connected to the second cutout 713. The second orifice 724 is
defined in a protuberance extended in the cavity 725. Additionally,
the second 81 and third 82 pawls have a second elastic member 84
disposed therebetween and the second elastic member 84 is inserted
by the shank 83. The second elastic member 84 includes at least one
loop and defines two terminating ends and a first leg 841 extending
from one terminating end and a second leg 842 extending from the
other terminating end. The first 841 and second 842 legs extend in
different directions. Also, the second pawl 81 includes an outer
periphery forming a locking section 811, an abutted section 812 and
a retaining section 813. The first leg 841 of the second elastic
member 84 is retained on the retaining section 813 of the second
pawl 81 (as best shown in FIG. 15). The third pawl 82 includes an
outer periphery forming a locking section 821, an abutted section
822 and a retaining section 823. The second leg 841 of the second
elastic member 84 is retained on the retaining section 823 of the
second pawl 82 (as best shown in FIG. 17).
[0046] The outer case 90 includes two engaging portions 91 engaged
with the two connecting lobes 11, respectively, to connect the
outer case 90 with the shift-up controller 10. The two engaging
portions 91 are also inserted by the axle 15, and the axle 15 has
two ends received by the engaging portions 91, respectively. Also,
the outer case 90 is hollow and includes a stopping portion 92 and
a recess 93 protruded in an inner peripheral wall of the outer case
90. Further, a clip 94 is received in the recess 93.
[0047] FIG. 6 shows that the second link member 50 and the housing
assembly 70 are retained to prevent disengagement from the outer
case 90. In the preferred embodiment, the stopping portion 92 of
the outer case 90 and the clip 94 cooperate to retain the second
link member 50 and the housing assembly 70. Additionally, the
second link member 50 is in abutment against the stopping wall 44,
and the stopping edge 711 of the housing assembly 70 is in abutment
against the stopping portion 92 of the outer case 90. Further, a
resilient member 95 is disposed between the second link member 50
and the housing assembly 70.
[0048] Still referring to FIG. 6, the first link member 20 is
moveably retained in the third engaging channel 7153 and third
engaging groove 7253. The locking member 60 is moveably retained in
the first 7151 and second 7152 engaging channels and is moveably
retained in the first 7251 and second 7252 engaging grooves.
Additionally, the protrusions 61 of the locking member 60 are
retained in the second engaging channel 7152 and the second
engaging groove 7252. Furthermore, the outer case 90 is abutted by
the second leg 142 of the elastic element 14. Furthermore, the
abutted section 303 of the first pawl 30 is in abutment against the
abutting wall 726 of the cavity 725 to counteract the first elastic
member 31 to disengage from the first engaging section 62.
Moreover, when the abutted section 303 of the first pawl 30 is in
abutment against the abutting wall 726 of the cavity 725, the
second pawl 81 will be disengaged from the second engaging section
63 and the locking section 821 of the third pawl 82 will engage
with one of the engaging slots 631 of the second engaging section
63 to prevent locking member 60 from movement.
[0049] FIG. 9 shows the first link member 20 is moved in a first
direction by the shift-up controller 10, and the first pawl 30 is
moved by the first link member 20 until the abutted section 303 of
the first pawl 30 is disengaged from the abutting wall 726 and the
locking section 301 of the first pawl 30 is biased by the first
elastic member 31 to engage with one of the engaging slots 621 of
the first engaging section 62. FIG. 11 is an extension of FIG. 9
and shows that the shift-up controller 10 is further pivoted in the
counterclockwise direction. Consequently, the first link member 20
is further moved in the first direction, and the first pawl 30
pulls the locking member 60 through a distance in the first
direction, and while the locking member 60 is moved, the third pawl
83 is disengaged from the engaged engaging slot 631 of the second
engaging section 63 of the locking member 60 and engage with
another engaging slot 631 successively, and the locking member 60
pulls the cable 64 to shift up bicycle speed transmission. FIG. 12
is an extension of FIG. 11 and shows the shift-up controller 10 is
released and the first pawl 30 is disengaged from the first
engaging section 62. FIG. 13 is an extension of FIG. 12 and shows
the shift-up controller 10 and the first link member 20 are
returned until the abutted section 303 of the first pawl 30 is in
abutment against the abutting wall 726.
[0050] Referring from FIGS. 11 through 13, the locking member 60 is
retained stationary despite that the first pawl 30 is disengaged
from the first engaging section 62. This is because the locking
section 821 of the third pawl 82 is in engagement with one of the
engaging slots 631 of the second engaging section 63 (as shown in
FIG. 8). Additionally, the second pawl 81 is disengaged from the
second engaging section 63 (as shown in FIG. 7). Based on the
forgoing, it is one aspect of the present invention that pivotal of
the shift-up controller 10 determines how far the first link member
20 moves, and this determines how many gear stages are shifted up.
Additionally, the first link member 20 can be designed to travel a
predetermined distance to change one gear stage or two gear stages
or more.
[0051] FIGS. 14 through 17 show that the shift-down controller 40
is operated in a direction shown by an arrow to shift down bicycle
speed transmission. It is one aspect of the present invention that
the operation of the shift-down controller 40 enables a change of
one gear stage at a time. In addition, since the operation of
shift-down controller 40 is independent to the shift-up controller
10. Thus, when shifting down bicycle speed transmission, the first
pawl 30 remains disengaged from the first engaging section 62 and
the abutted section 303 of the first pawl 30 is in abutment against
the abutting wall 726.
[0052] FIG. 14 shows the resilient member 95 is depressed by the
shift-down controller 40 and the second link member 50 is moved.
The abutted section 812 of the second pawl 81 is urged by the first
actuating member 52 until the locking section 811 of the second
pawl 81 is engaged with one of the engaging slot 631 of the second
engaging section 63 of the locking member 60. FIG. 16 shows as the
second pawl 81 is engaged with the second engaging section 63 of
the locking member 60 (shown in FIG. 12), the third pawl 82 is
urged by the second actuating member 53 until the second actuating
member 53 is received in the retaining section 823 of the third
pawl 82 and the third pawl 82 is disengaged from the second
engaging section 63 of the locking member 60. By further moving the
shift-down controller 40, the locking member 60 is moved in a
second direction reverse to the first direction, and the bicycle
speed transmission is shifted down.
[0053] FIGS. 18 and 19 show that the shift-down controller 40 is
released and the resilient member 95 and the second link member 50
are returned until the second pawl 81 is disengaged from one of the
second engaging section 63 of the locking member 60 and the second
actuating member 53 is disengaged from the retaining section 823 of
the third pawl 82 to enable the third pawl 82 to engage with the
second engaging section 63 of the locking member 60.
[0054] While the specific embodiments have been illustrated and
described, numerous modifications are possible without
significantly departing from the spirit of invention, and the scope
of invention is limited only by the scope of the accompanying
claims.
* * * * *